Wireless communication method and device

ABSTRACT

Provided are a wireless communication method and device. A feedback method for feeding back the signal quality of multiple transmitting beams of a network device by means of a terminal device can be improved, so that the communication performance of the terminal device can be improved. The method comprises: a terminal device determining a first feedback mode for feeding back the signal quality of multiple transmitting beams of a network device, wherein the first feedback mode differs from the other feedback modes supported by the terminal device in at least one of the following aspects: receiving the capability of receiving beams or receiving beam groups for signal quality feedback, and the number of receiving beams or receiving beam groups for signal quality feedback; and the terminal device feeding back the signal quality to the network device according to the first feedback mode.

TECHNICAL FIELD

The disclosure relates to the field of communication, and moreparticularly to a wireless communication method and a device.

BACKGROUND

A terminal device may measure, by use of multiple receive beams,measurement signals sent by a network device through multiple transmitbeams, and select at least one transmit beam and the matched receivebeam based on a measurement result. A measurement report is reported tothe terminal device, and the measurement report includes the at leastone transmit beam and matched receive beam selected by the terminaldevice.

Therefore, the network device may send a downlink signal to the terminaldevice by use of the at least one transmit beam selected by the terminaldevice, and the terminal device may adopt the matched receiving beam toreceive the downlink signal sent through the at least one transmit beam.

Compared with a Long Term Evolution (LTE) system, a terminal device in a5th-Generation (5G) communication system has a higher requirement on thecommunication performance. The communication performance of the terminaldevice may be improved by improving a feedback method for feeding backsignal quality of multiple transmit beams of a network device by theterminal device.

SUMMARY

The disclosure provides a wireless communication method and a device,which is capable of improving the feedback method for feeding backsignal quality of multiple transmit beams of a network device by aterminal device, thereby improving communication performance of theterminal device.

A first aspect provides a wireless communication method, which mayinclude the following operations.

A terminal device determines a first feedback manner for feeding backsignal quality of multiple transmit beams of a network device. The firstfeedback manner is different from another feedback manner supported bythe terminal device in at least one of: a receiving capability ofreceive beams or receive beam groups configured for signal qualityfeedback, or the number of the receive beams or receive beam groupsconfigured for signal quality feedback.

The terminal device feeds back the signal quality to the network deviceaccording to the first feedback manner.

In combination with the first aspect, in a possible implementation modethereof, the receiving capability of the receive beams or the receivebeam groups may include at least one of a first receiving capability ora second receiving capacity.

In the first receiving capability, the same receive beam or the samereceive beam group may be capable of simultaneously receiving downlinksignals sent by multiple transmit beams.

In the second receiving capability, different receive beams or differentreceive beam groups may be capable of simultaneously receiving downlinksignals sent by different transmit beams.

In combination with the first aspect, in a possible implementation modethereof, the receiving capability of the receive beams or the receivebeam groups may include at least one of a first receiving capability ora second receiving capacity.

In the first receiving capability, the same receive beam or the samereceive beam group may be capable of simultaneously receiving downlinksignals sent by multiple transmit beams corresponding to the receivebeam or the receive beam group.

In the second receiving capability, different receive beams or differentreceive beam groups may be capable of simultaneously receiving downlinksignals sent by different transmit beams corresponding to the respectivereceive beams or receive beam groups.

In combination with the first aspect, in a possible implementation modethereof, the receiving capability of the receive beams or the receivebeam groups may include at least one of a first receiving capability ora second receiving capacity.

In the first receiving capability, the same receive beam or the samereceive beam group may be capable of simultaneously receiving downlinksignals sent by multiple transmit beams matched with the receive beam orthe receive beam group.

In the second receiving capability, different receive beams or differentreceive beam groups may be capable of simultaneously receiving downlinksignals sent by different transmit beams matched with the respectivereceive beams or receive beam groups.

In combination with the first aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, the method may further include the following operation.

The terminal device receives first information sent by the networkdevice. The first information may be used to configure at least one ofthe followings for the terminal device: the receiving capability of thereceive beams or receive beam groups configured for signal qualityfeedback, the number of the receive beams or receive beam groupsconfigured for signal quality feedback, or a composition manner of thereceive beams or receive beam groups configured for signal qualityfeedback. The composition manner may be indexed to the number of thereceive beam or receive beam groups configured for signal qualityfeedback.

The operation that the terminal device determines the first feedbackmanner for feeding back the signal quality of the multiple transmitbeams of the network device may include the following action.

The terminal device determines the first feedback manner according tothe first information.

In combination with the first aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, before the operation that the terminal device determines thefirst feedback manner for feeding back the signal quality of themultiple transmit beams of the network device, the method may furtherinclude the following operation.

The terminal device sends second information to the network device. Thesecond information may be configured to indicate at least one of:receiving capabilities of receive beams or receive beam groups supportedby the terminal device, the number of the receive beams or the receivebeam groups supported by the terminal device, composition manners of thereceive beams or the receive beam groups supported by the terminaldevice, or the number of the composition manners of the receive beams orthe receive beam groups supported by the terminal device. Eachcomposition manner may be indexed to the number of the receive beams orreceive beam groups configured for signal quality feedback.

In combination with the first aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, when the terminal device supports at least two receivingcapabilities of the receive beams or the receive beam groups, the secondinformation may at least indicate the receiving capabilities of thereceive beams or the receive beam groups supported by the terminaldevice.

The method may further include the following operation.

The terminal device receives third information sent by the networkdevice. The third information may be used to at least configure thefollowing for the terminal device: the receiving capability of thereceive beams or receive beam groups configured for signal qualityfeedback.

The operation that the terminal device determines the first feedbackmanner for feeding back the signal quality of the multiple transmitbeams of the network device may include the following action.

The terminal device determines the first feedback manner according tothe third information.

In combination with the first aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, when the terminal device supports at least two compositionmanners of the receive beams or the receive beam groups, the secondinformation may indicate at least one of the followings: the compositionmanners of the receive beams or the receive beam groups supported by theterminal device, the number of the receive beams or the receive beamgroups supported by the terminal device, or the number of thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device.

The method may further include the following operation.

The terminal device receives fourth information sent by the networkdevice. The fourth information may be used to configure at least one ofthe followings for the terminal device: the composition manner of thereceive beams or receive beam groups configured for the signal qualityfeedback, the number of the composition manners of the receive beams orthe receive beam groups supported by the terminal device, or the numberof the receive beams or receive beam groups configured for qualityfeedback.

The operation that the terminal device determines the first feedbackmanner for feeding back the signal quality of the multiple transmitbeams of the network device may include the following action.

The terminal device determines the first feedback manner according tothe fourth information.

In combination with the first aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, when the terminal device supports one receiving capability ofthe receive beams or the receive beam groups and the terminal devicesupports one composition manner of the receive beams or the receive beamgroups, the operation that the terminal device determines the firstfeedback manner for feeding back the signal quality of the multipletransmit beams of the network device may include the following action.

The terminal device determines the first feedback manner according tothe second information.

In combination with the first aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, the second information may indicate at least one of: thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, or the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device.

A measurement report for feeding back the signal quality may further beconfigured to indicate the receiving capabilities of the receive beamsor the receive beam groups supported by the terminal device.

In combination with the first aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, the operation that the terminal device sends the secondinformation to the network device may include the following action.

The terminal device sends a message carrying capability information ofthe terminal device to the network device, and the capabilityinformation includes the second information.

A second aspect provides a wireless communication method, which mayinclude the following operations.

A network device generates first information, and the first informationis used to configure a feedback manner in which a terminal device feedsback signal quality of multiple transmit beams of the network device tothe network device. The first information is used to configure at leastone of the followings for the terminal device: a receiving capability ofreceive beams or receive beam groups configured for signal qualityfeedback, the number of the receive beams or receive beam groupsconfigured for signal quality feedback, or a composition manner of thereceive beams or receive beam groups configured for signal qualityfeedback. The composition manner is indexed to the number of the receivebeam or receive beam groups configured for signal quality feedback.

The network device sends the first information to the terminal device.

In combination with the second aspect, in a possible implementation modethereof, the receiving capability of the receive beams or the receivebeam groups may include at least one of a first receiving capability ora second receiving capacity.

In the first receiving capability, the same receive beam or the samereceive beam group may be capable of simultaneously receiving downlinksignals sent by multiple transmit beams.

In the second receiving capability, different receive beams or differentreceive beam groups may be capable of simultaneously receiving downlinksignals sent by different transmit beams.

In combination with the second aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, before the operation that the network device generates thefirst information, the method may further include the followingoperation.

The network device receives second information sent by the terminaldevice. The second information is configured to indicate at least oneof: receiving capabilities of receive beams or receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, compositionmanners of the receive beams or the receive beam groups supported by theterminal device, or the number of the composition manners of the receivebeams or the receive beam groups supported by the terminal device.

In combination with the second aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, the second information may at least indicate the receivingcapabilities of the receive beams or the receive beam groups supportedby the terminal device, and the receiving capabilities of the receivebeams or the receive beam groups supported by the terminal device mayinclude at least two receiving capabilities.

The first information may be used to at least configure the followingfor the terminal device: the receiving capability of the receive beamsor receive beam groups configured for signal quality feedback.

In combination with the second aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, the composition manners of the receive beams or the receivebeam groups supported by the terminal device may include at least twocomposition manners, and the second information may indicate at leastone of the followings: the composition manners of the receive beams orthe receive beam groups supported by the terminal device, the number ofthe receive beams or the receive beam groups supported by the terminaldevice, or the number of the composition manners of the receive beams orthe receive beam groups supported by the terminal device.

The first information may be used to configure at least one of thefollowings for the terminal device: the composition manner of thereceive beams configured for the signal quality feedback, the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device, or the number of the receive beams orreceive beam groups configured for quality feedback.

In combination with the second aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, the second information may indicate at least one of: thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, or the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device.

A measurement report for feeding back the signal quality may further beconfigured to indicate the receiving capabilities of the receive beamsor the receive beam groups supported by the terminal device.

In combination with the second aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, the operation that the network device receives the secondinformation sent by the terminal device may include the followingaction.

The network device receives a message carrying capability information ofthe terminal device from the terminal device. The capability informationmay include the second information.

In combination with the second aspect or any abovementioned possibleimplementation mode thereof, in another possible implementation modethereof, the method may further include the following operations.

The network device determines a first feedback manner for signal qualityfeedback of the terminal device. The first feedback manner is differentfrom another feedback manner supported by the terminal device in atleast one of: the receiving capability of the receive beams or receivebeam groups configured for the signal quality feedback, or the number ofthe receive beams or receive beam groups configured for the signalquality feedback.

The network device determines a transmit beam for sending a downlinksignal to the terminal device according to the first feedback manner andthe fed-back measurement report for the signal quality.

The network device sends the downlink signal via the determined transmitbeam.

A third aspect provides a terminal device. The terminal device mayinclude units configured to implement the method in the first aspect orany possible implementation mode thereof.

A fourth aspect provides a network device. The network device mayinclude units configured to implement the method in the second aspect orany possible implementation mode thereof.

A fifth aspect provides a terminal device, which may include a memoryand a processor. The memory stores an instruction, and the processor isconfigured to call the instruction stored in the memory to execute themethod in the first aspect or any optional implementation mode thereof.

A sixth aspect provides a network device, which may include a memory anda processor. The memory stores an instruction, and the processor isconfigured to call the instruction stored in the memory to execute themethod in the second aspect or any optional implementation mode thereof.

A seventh aspect provides a computer-readable medium, which stores aprogram code configured to be executed by a terminal device. The programcode includes an instruction configured to execute the method in thefirst aspect or each implementation mode thereof or includes aninstruction configured to execute the method in the second aspect oreach implementation mode thereof.

An eighth aspect provides a system chip, which includes an inputinterface, an output interface, a processor and a memory. The processoris configured to execute a code in the memory. When the code isexecuted, the processor may implement the method in the first aspect andeach implementation mode or execute the method in the second aspect andeach implementation mode.

In the embodiments of the disclosure, the terminal device may determinethe first feedback manner for feeding back the signal quality of themultiple transmit beams of the network device from multiple feedbackmanners, and the terminal device feeds back the signal quality to thenetwork device according to the first feedback manner. In such a manner,the terminal device may support the multiple feedback manners, and theterminal device may select a presently-used feedback manner in themultiple feedback manners according to a requirement. Therefore,communication performance of the terminal device may be improved.

BRIEF DESCRIPTION OF DRAWINGS

In order to describe the technical solutions of the embodiments of thedisclosure more clearly, the drawings required to be used indescriptions about the embodiments or a conventional art will be simplyintroduced below. It is apparent that the drawings described below areonly some embodiments of the disclosure. Other drawings may further beobtained by those of ordinary skill in the art according to thesedrawings without creative work.

FIG. 1 is a schematic diagram of a wireless communication systemaccording to an embodiment of the disclosure.

FIG. 2 is a schematic flowchart of a wireless communication methodaccording to an embodiment of the disclosure.

FIG. 3 is a matching schematic diagram of transmit beams and receivebeams according to an embodiment of the disclosure.

FIG. 4 is a matching schematic diagram of transmit beams and receivebeams according to an embodiment of the disclosure.

FIG. 5 is a schematic flowchart of a wireless communication methodaccording to an embodiment of the disclosure.

FIG. 6 is a schematic block diagram of a terminal device according to anembodiment of the disclosure.

FIG. 7 is a schematic block diagram of a network device according to anembodiment of the disclosure.

FIG. 8 is a schematic block diagram of a system chip according to anembodiment of the disclosure.

FIG. 9 is a schematic block diagram of a communication device accordingto an embodiment of the disclosure.

DETAILED DESCRIPTION

The technical solutions in the embodiments of the disclosure will bedescribed below in combination with the drawings in the embodiments ofthe disclosure. It is apparent that the described embodiments are notall embodiments but part of embodiments of the disclosure. All otherembodiments obtained by those of ordinary skill in the art on the basisof the embodiments in the disclosure without creative work shall fallwithin the scope of protection of the disclosure.

The technical solutions of the embodiments of the disclosure may beapplied to various communication systems, for example, a Global Systemof Mobile

Communication (GSM), a Code Division Multiple Access (CDMA) system, aWideband Code Division Multiple Access (WCDMA) system, a General PacketRadio Service (GPRS), an LTE system, an LTE Frequency Division Duplex(FDD) system, an LTE Time Division Duplex (TDD), a Universal MobileTelecommunication System (UMTS), a Worldwide Interoperability forMicrowave Access (WiMAX) communication system or a future 5G system.

FIG. 1 illustrates a wireless communication system 100 to which theembodiments of the disclosure are applied. The wireless communicationsystem 100 may include a network device 110. The network device 100 maybe a device communicating with a terminal device. The network device 100may provide communication coverage for a specific geographical regionand may communicate with a terminal device (for example, User Equipment(UE)) in the coverage. In at least one example, the network device 100may be a Base Transceiver Station (BTS) in the GSM or the CDMA system,may also be a NodeB (NB) in the WCDMA system, and may further be anEvolutional Node B (eNB or eNodeB) in the LTE system or a wirelesscontroller in a Cloud Radio Access Network (CRAN). In another example,the network device may be a relay station, an access point, avehicle-mounted device, a wearable device, a network-side device in afuture 5G network, a network device in a future evolved Public LandMobile Network (PLMN) or the like.

The wireless communication system 100 further includes at least oneterminal device 120 within the coverage of the network device 110. Theterminal device 120 may be mobile or fixed. In at least one example, theterminal device 120 may be an access terminal, UE, a user unit, a userstation, a mobile station, a mobile radio station, a remote station, aremote terminal, a mobile device, a user terminal, a terminal, awireless communication device, a user agent or a user device. The accessterminal may be a cell phone, a cordless phone, a Session InitiationProtocol (SIP) phone, a Wireless Local Loop (WLL) station, a PersonalDigital Assistant (PDA), a handheld device with a wireless communicationfunction, a computing device, another processing device connected to awireless modem, a vehicle-mounted device, a wearable device, a terminaldevice in the future 5G network, a terminal device in the future evolvedPLMN or the like.

In at least one example, the terminal devices 120 may perform Device toDevice (D2D) communication.

In at least one example, the 5G system or network may also be called aNew Radio (NR) system or network.

A network device and two terminal devices are exemplarily illustrated inFIG. 1. In at least one embodiment, the wireless communication system100 may include multiple network devices and another number of terminaldevices may be included in coverage of each network device. There are nolimits made thereto in the embodiments of the application.

In at least one embodiment, the wireless communication system 100 mayfurther include another network entity such as a network controller anda mobility management entity. There are no limits made thereto in theembodiments of the disclosure.

It is to be understood that terms “system” and “network” in thedisclosure may usually be exchanged. In the disclosure, the term“and/or” is only an association relationship describing associatedobjects and represents that three relationships may exist. For example,A and/or B may represent three conditions: i.e., independent existenceof A, existence of both A and B and independent existence of B. Inaddition, character “/” in the disclosure usually represents thatprevious and next associated objects form an “or” relationship.

It is to be understood that a beam or beam group mentioned in theembodiments of the disclosure may also be called a port, and anidentifier of the beam or the beam group may be an identifier of areference signal received or sent on the beam.

FIG. 2 is a schematic flowchart of a signal transmission method 200according to an embodiment of the disclosure. The method 200 may beapplied, but not limited, to the system illustrated in FIG. 1. Asillustrated in FIG. 2, the method 200 includes the following contents.

In 210, a terminal device determines a first feedback manner for feedingback signal quality of multiple transmit beams of a network device, andthe first feedback manner is different from another feedback mannersupported by the terminal device in at least one of: a receivingcapability of receive beams or receive beam groups configured for signalquality feedback or the number of the receive beams or receive beamgroups configured for signal quality feedback.

It is to be understood that the signal quality feedback mentioned in theembodiment of the disclosure may include a signal measurement processand/or a measurement report process.

In at least one embodiment, the receiving capability of the receivebeams or the receive beam groups includes a first receiving capabilityand a second receiving capability. In the first receiving capability,the same receive beam or the same receive beam group may simultaneouslyreceive downlink signals sent by multiple transmit beams. In at leastone embodiment, the multiple transmit beams are at least part oftransmit beams matched with the same receive beam or receive beam groupin a measurement report.

In at least one embodiment, in the second receiving capability,different receive beams or different receive beam groups maysimultaneously receive downlink signals sent by different transmitbeams.

In at least one embodiment, each receive beam in different receive beamsreceives downlink signals sent by at least part of transmit beamsmatched with the receive beam in the measurement report.

In at least one embodiment, the same antenna panel may correspond tomultiple receive beams or receive beam groups with the first receivingcapability.

In at least one embodiment, a receive beam or receive beam group withthe second receiving capability may correspond to at least one antennapanel. Antenna panels corresponding to multiple receive beams or receivebeam groups with the second receiving capability are not overlapped.

For conveniently understanding the first receiving beam and the secondreceiving capability, detailed descriptions will be made below incombination with FIG. 3 and FIG. 4.

As illustrated in FIG. 3, the network device may send downlink signalsto the terminal device through a transmit beam B1, transmit beam B2 andtransmit beam B3 of a sending node 1, and may send downlink signals tothe terminal device through a transmit beam B4, transmit beam B5 andtransmit beam B6 of a sending node 2. The terminal device may receivethe downlink signals sent by the network device through two receivebeams, i.e., a receive beam b1 and a receive beam b2.

The network device may send downlink measurement signals to the terminaldevice through the transmit beam B1, the transmit beam B2, the transmitbeam B3, the transmit beam B4, the transmit beam B5 and the transmitbeam B6. The terminal device may measure the downlink signals sent byeach transmit beam using the receive beams b1 and b2 to obtain ameasurement result. The terminal device may select a transmit beamaccording to the measurement result.

For example, the measurement result may be illustrated as follows.Assume that the measurement result is Reference Signal Received Power(RSRP), and beam pairs which are not listed may be considered to haveparticularly low signal strength and may be ignored.

[B1 b1] −60 dB [B1 b2] −120 dB [B2 b1] −70 dB [B2 b2] −120 dB [B3 b1]−100 dB [B3 b2] −120 dB [B4 b1] −120 dB [B4 b2] −100 dB [B5 b1] −120 dB[B5 b2] −65 dB [B6 b1] −120 dB [B6 b2] −75 dB

If four transmit beams are to be reported, multiple beam pairs may beselected from the result, and the selected beam pairs and thecorresponding measurement result may be reported.

Beam pairs [B1 1], [B2 b1], [B5 b2] and [B6 b2] correspond to optimalsignal quality, and then the four beam pairs may be reported. In thereporting process, a receive beam identifier corresponding to eachreceive beam may be reported. That is, a reporting manner for themeasurement result may be illustrated as follows.

[B1 b1] -60 dB

[B2 b1] -70 dB

[B5 b2] -65 dB

[B6 b2] -75 dB

When the network device receives the measurement result, it may belearned about that the same receive beam may simultaneously receivesignals sent by different transmit beams. That is, the network devicemay simultaneously send the downlink signals to the terminal devicethrough B1 and B2 or B5 and B6.

As illustrated in FIG. 4, the network device may send downlink signalsto the terminal device through the transmit beam B1, transmit beam B2and transmit beam B3 of the sending node 1, and may send downlinksignals to the terminal device through the transmit beam B4, transmitbeam B5 and transmit beam B6 of the sending node 2. The terminal devicemay include two receive beam groups, i.e., a receive beam group b1 and areceive beam group b2. The receive beam group b1 may include receivebeams b1-1 and b1-2, and the receive beam group b2 may include receivebeams b2-1 and b2-2.

The network device may send downlink measurement signals to the terminaldevice through the transmit beam B1, the transmit beam B2, the transmitbeam B3, the transmit beam B4, the transmit beam B5 and the transmitbeam B6. The terminal device may measure the downlink signals sent byeach transmit beam using the receive beams b1-1, b1-2, b2-1 and b2-2 toobtain a measurement result. The terminal device may select a transmitbeam according to the measurement result.

For example, the measurement report may be illustrated as follows.Assume that the measurement result is RSRP, and beam pairs which are notlisted may be considered to have particularly low signal strength andmay be ignored.

[B1 b1-1] −60 dB [B1 b1-2] −120 dB [B2 b1-1] −70 dB [B2 b1-2] −120 dB[B3 b1-1] −100 dB [B3 b1-2] −120 dB [B4 b2-1] −120 dB [B4 b2-2] −100 dB[B5 b2-1] −120 dB [B5 b2-2] −65 dB [B6 b2-1] −120 dB [B6 b2-2] −75 dB

If four transmit beams are to be reported, multiple beam pairs may beselected from the result, and the selected beam pairs and thecorresponding measurement result may be reported.

Beam pairs [B1 b1-1], [B2 b1-1], [B5 b2-2] and [B6 b2-2] correspond tooptimal signal quality, and then the four beam pairs may be reported. Inthe reporting process, a receive beam group identifier corresponding toeach receive beam may be reported. That is, a reporting manner for themeasurement result may be illustrated as follows.

[B1 b1] -60 dB

[B2 b1] -70 dB

[B5 b2] -65 dB

[B6 b2] -75 dB

When the network device receives the measurement result, it may belearned about that different receive beam groups may simultaneouslyreceive signals sent by different transmit beams. That is, the networkdevice may simultaneously send the downlink signals to the terminaldevice through B1 and B5, or B1 and B6, or B2 and B5, or B2 and B6.

In the embodiment of the disclosure, the receive beam or the receivebeam group is represented by an identifier in a communication process.

Although the receive beams illustrated in FIG. 3 have the firstreceiving capability and the receive beam groups illustrated in FIG. 4have the second receiving capability, this does not mean that all of thereceive beams in the embodiment of the disclosure have the firstreceiving capability and all of second receive beams have the secondreceiving capability, that is, the names of the receive beams andreceive beam groups in the embodiment of the disclosure are notdistinguished by the receiving capability.

The receive beam in the embodiment of the disclosure may also be calleda receive beam group or a receive beam unit. Similarly, the receive beamgroup in the embodiment of the disclosure may also be called a receivebeam or a receive beam unit.

In at least one embodiment, the number of the receive beams or receivebeam groups configured for signal quality feedback may be the number ofreceive beams or receive beam groups adopted in the signal measurementprocess.

In at least one embodiment, the number of the receive beams or receivebeam groups configured for signal quality feedback may be the number ofreceive beams or receive beam groups reported in the measurement report.

The number of the receive beams or receive beam groups adopted in thesignal measurement process may be different from the number of thereceive beams or receive beam groups reported in the measurement report.

For example, when it is found in the signal measurement process thatquality of signals between one or more receive beams or one or morereceive beam groups and any transmit beam does not meet a reportingcondition, the number of the receive beams or receive beam groupsadopted in the signal measurement process is greater than the number ofthe receive beams or receive beam groups reported in the measurementreport.

In at least one embodiment of the disclosure, the terminal devicereceives first information sent by the network device. The firstinformation is used to configure the terminal device about at least oneof: the receiving capability of the receive beams or receive beam groupsconfigured for signal quality feedback, the number of the receive beamsor receive beam groups configured for signal quality feedback or acomposition manner of the receive beams or receive beam groupsconfigured for signal quality feedback. The composition manner isindexed to the number of the receive beam or receive beam groupsconfigured for signal quality feedback.

The terminal device determines the first feedback manner according tothe first information.

Specifically, when the network device configures the receivingcapability of the receive beams or receive beam groups for signalquality feedback of the terminal device, the terminal device may selecta receive beam or receive beam group for signal measurement and/orselect a reporting manner for the measurement report according to thisconfiguration.

For example, when the network device configures the first receivingcapability for the terminal device, the terminal device may, asillustrated in FIG. 3, receive the downlink signals sent by eachtransmit beam of the network device using the receive beam b1 and thereceive beam b2 respectively and select one or more beam pairs to bereported according to the signal quality of the received downlinksignals. The measurement report includes information of the selectedbeam pair and identifiers of the receive beams in the beam pair areidentifiers of b1 and b2.

For example, when the network device configures the first receivingcapability for the terminal device, the terminal device may, asillustrated in FIG. 4, receive the downlink signals sent by eachtransmit beam of the network device using the receive beam b1-1, thereceive beam b1-2, the receive beam b2-1 and the receive beam b2-1respectively and select one or more beam pairs to be reported accordingto the signal quality of the received downlink signals. The measurementreport includes information of the selected beam pairs and identifiersof the receive beams in the beam pairs are respective identifiers of thereceive beam b1-1, the receive beam b1-2, the receive beam b2-1 and thereceive beam b2-1.

For example, when the network device configures the second receivingcapability for the terminal device, the terminal device may, asillustrated in FIG. 4, receive the downlink signals sent by eachtransmit beam of the network device using the receive beam b1-1, thereceive beam b1-2, the receive beam b2-1 and the receive beam b2-1respectively and select one or more beam pairs to be reported accordingto the signal quality of the received downlink signals. The measurementreport contains information of the selected beam pairs and identifiersof the receive beams in the beam pairs are identifiers of the receivebeam group b1 and the receive beam group b2.

In at least one embodiment, when the network device configures thenumber of the receive beams or receive beam groups, configured forsignal quality feedback, of the terminal device, the terminal device maydetermine the number of the receive beams or receive beam groupsconfigured for signal quality feedback according to this configuration.

In at least one embodiment, the terminal device sends second informationto the network device, and the second information is configured toindicate at least one of: receiving capabilities of receive beams orreceive beam groups supported by the terminal device, a number of thereceive beams or the receive beam groups supported by the terminaldevice, composition manners of the receive beams or the receive beamgroups supported by the terminal device, or the number of thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device. Each composition manner is indexed tothe number of the receive beams or receive beam groups configured forsignal quality feedback.

In at least one embodiment, the receiving capabilities of the receivebeams or receive beam groups supported by the terminal device mayinclude the first receiving capability and the second receivingcapability.

In at least one embodiment, the number of the receive beams or thereceive beam groups supported by the terminal device may be more thanone, and in such a condition, the terminal device supports multiplecomposition manners for the receive beams or the receive beam groups.The terminal device may contain the number of the receive beams or thereceive beam groups supported by the terminal device in the secondinformation, or may also contain an identifier of the composition mannercorresponding to the number in the second information.

In at least one embodiment, the terminal device sends a message carryingcapability information of the terminal device to the network device, andthe capability information includes the second information. In anotherembodiment, the terminal device may report the second information atanother moment in a Radio Resource Control (RRC) connected state.

In at least one embodiment of the disclosure, the terminal device maysend the second information to the network device according to anexisting configuration, a capability of the terminal device and aservice requirement of the terminal device.

In at least one embodiment of the disclosure, the network device mayconfigure the terminal device according to the second informationreported by the terminal device.

In an implementation, when the terminal device supports at least tworeceiving capabilities of the receive beams or the receive beam groups,the second information at least indicates the receiving capabilities ofthe receive beams or the receive beam groups supported by the terminaldevice. The terminal device receives third information sent by thenetwork device, and the third information is used to at least configurethe following for the terminal device: the receiving capability of thereceive beams or receive beam groups configured for signal qualityfeedback. The terminal device determines the first feedback manneraccording to the third information.

Specifically, the terminal device reports K conditions supported by theterminal device for the receive beams or the receive beam groups to thenetwork device. Each condition at least includes the receivingcapability of the receive beams or the receive beam groups.

Further, related report information of each condition may furtherinclude part or all of the following information:

the composition manner of the receive beams or the receive beam groups;and

the number of the receive beams or the receive beam groups.

The network device, after receiving information reported by the terminaldevice, may configure the terminal device. Configuration information mayinclude:

a serial number (k) of one of the K conditions; or

the receiving capability of the receive beams or the receive beam groupsand the number of the receive beams or the receive beam groups; or

the capability of the receive beams or the receive beam groups and aserial number of the composition manner for the receive beams or thereceive beam groups.

The terminal device, after the configuration information of the networkdevice is received and the configuration is activated, may performsignal measurement and report the measurement report according to theconfiguration information.

For understanding this implementation more clearly, detaileddescriptions will be made below with example A and example B.

EXAMPLE A

The terminal device supports two receiving capabilities, the terminaldevice supports one composition manner for the receive beams or thereceive beam groups and the number of the receive beams or the receivebeam groups in the composition manner is 2.

There are two conditions supported by the terminal device for thereceive beams or the receive beam groups.

Condition 1: the supported receiving capability is a receivingcapability 1, and in the receiving capability 1, one composition mannerfor the receive beams or the receive beam groups is supported, that is,two receive beams or receive beam groups are included.

Condition 2: the supported receiving capability is a receivingcapability 2, and in the receiving capability 2, one composition mannerfor the receive beams or the receive beam groups is supported, that is,two receive beams or receive beam groups are included.

The network device, after receiving the information reported by theterminal device, may configure the terminal device. The configurationinformation may include: the receiving capability 1 and the number ofthe receive beams or the receive beam groups being 2; or Condition 1; orthe receiving capability 1 and a serial number of the composition mannerof the receive beams or the receive beam groups.

EXAMPLE B

The terminal device supports two receiving capabilities. The terminaldevice supports two composition manners for the receive beams or thereceive beam groups and the number of the receive beams or the receivebeam groups in the two composition manners is 2 or 4.

There are two conditions supported by the terminal device for thereceive beams or the receive beam groups.

Condition 1: the supported receiving capability is a receivingcapability 1, and in the receiving capability 1, two composition mannersfor the receive beams or the receive beam groups are supported, that is,two receive beams or receive beam groups are supported and four receivebeams or receive beam groups are supported.

Condition 2: in a receiving capability 2, one composition manner for thereceive beams or the receive beam groups is supported, that is, tworeceive beams or receive beam groups are included.

The network device, after receiving the information reported by theterminal device, may configure the terminal device. The configurationinformation may include: the receiving capability 1 and the number ofthe receive beams or the receive beam groups being 2; or Condition 1; orthe receiving capability 1 and a serial number of the composition mannerof the receive beams or the receive beam groups.

EXAMPLE C

The terminal device supports two receiving capabilities. The terminaldevice supports two composition manners for the receive beams or thereceive beam groups and the number of the receive beams or the receivebeam groups in the two composition manners is 2 or 4.

There are three conditions supported by the terminal device for thereceive beams or the receive beam groups.

Condition 1: the supported receiving capability is a receivingcapability 1, and one composition manner for the receive beams or thereceive beam groups is supported in the receiving capability 1, that is,two receive beams or receive beam groups are supported.

Condition 2: the supported receiving capability is the receivingcapability 1, and one composition manner for the receive beams or thereceive beam groups is supported in the receiving capability 1, that is,four receive beams or receive beam groups are supported.

Condition 3: in a receiving capability 2, one composition manner for thereceive beams or the receive beam groups is supported, that is, tworeceive beams or receive beam groups are included.

The network device, after receiving the information reported by theterminal device, may configure the terminal device. The configurationinformation may include: Condition 2; or the receiving capability 1 andthe number of the receive beams or the receive beam groups being 4.

It is to be understood that, in example B and example C, the receivingcapability of the receive beams or the receive beam groups supported bythe terminal device, the supported composition manner of the receivebeams or the receive beam groups and the supported number of the receivebeams or the receive beam groups are the same and a substantialassociation among them is the same. However, different numbers ofconditions are divided, and this means that, for example B and exampleC, different bearing manners may be adopted for fields in the secondinformation and in the configuration information.

In an implementation, when the terminal device supports at least twocomposition manners of the receive beams or the receive beam groups, thesecond information indicates at least one of the followings: thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, or the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device.

The terminal device receives fourth information sent by the networkdevice. The fourth information is used to configure at least one of thefollowings for the terminal device: the composition manner of thereceive beams or receive beam groups configured for signal qualityfeedback, the number of the composition manners of the receive beams orthe receive beam groups supported by the terminal device, or the numberof the receive beams or receive beam groups configured for the qualityfeedback.

The terminal device determines the first feedback manner according tothe fourth information.

Specifically, assume that the terminal device supports only onereceiving capability, and the terminal device reports K conditionssupported by the terminal device for the receive beams or the receivebeam groups to the network device. Each condition at least includes thereceiving capability of the receive beams or the receive beam groups.

Furthermore, related report information of each condition may furtherinclude the following information:

a composition manner 1 of the receive beams or the receive beam groupsand the number of the receive beams or the receive beam groups in thecomposition manner 1;

a composition manner 2 of the receive beams or the receive beam groupsand the number of the receive beams or the receive beam groups in thecomposition manner 2;

a composition manner K of the receive beams or the receive beam groupsand the number of the receive beams or the receive beam groups in thecomposition manner K.

The network device, after receiving the information reported by theterminal device, may configure the terminal device. The configurationinformation may include:

the receiving capability and the number of the receive beams or thereceive beam groups; or the receiving capability and the serial numberof the composition manner of the receive beams or the receive beamgroups; or

the number of the receive beams or the receive beam groups; or

the serial number of the composition manner of the receive beams or thereceive beam groups.

The terminal device, after the configuration information of the networkdevice is received and the configuration is activated, may performsignal measurement and report the measurement report according to theconfiguration information.

In an implementation, when the terminal device supports one receivingcapability of the receive beams or the receive beam groups and theterminal device supports one composition manner of the receive beams orthe receive beam groups, the terminal device determines the firstfeedback manner according to the second information.

Specifically, assume that the terminal device supports only onereceiving capability and supports only one composition manner, theterminal device reports one condition supported by the terminal devicefor the receive beams or the receive beam groups to the network device.This condition at least includes the receiving capability of the receivebeams or the receive beam groups.

Furthermore, related report information of this condition may furtherinclude the following information: the composition manner of the receivebeams or the receive beam groups and the number of the receive beams orthe receive beam groups in the composition manner.

Since the terminal device supports only one condition, the networkdevice may not configure the terminal device, and the terminal devicemay feed back the signal quality by adopting this condition as adefault.

After receiving the information reported by the terminal device, thenetwork device may also configure the terminal device. The configurationinformation may include:

the receiving capability and the number of the receive beams or thereceive beam groups; or

the receiving capability and the serial number of the composition mannerof the receive beams or the receive beam groups; or

the number of the receive beams or the receive beam groups; or theserial number of the composition manner of the receive beams or thereceive beam groups.

The terminal device, after the configuration information of the networkdevice is received and the configuration is activated, may performsignal measurement and report the measurement report according to theconfiguration information.

In an implementation, the second indication indicates at least one of:the composition manners of the receive beams or the receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, or the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device. The measurement report for feedingback the signal quality is further configured to indicate the receivingcapabilities of the receive beams or the receive beam groups supportedby the terminal device.

Specifically, assume that the terminal device reports K conditionssupported by the terminal device for the receive beams or the receivebeam groups to the network device. Each condition at least includes thefollowing information:

the composition manner 1 of the receive beams or the receive beam groupsand the number of the receive beams or the receive beam groups in thecomposition manner 1;

the composition manner 2 of the receive beams or the receive beam groupsand the number of the receive beams or the receive beam groups in thecomposition manner 2;

the composition manner K of the receive beams or the receive beam groupsand the number of the receive beams or the receive beam groups in thecomposition manner K.

The network device, after receiving the information reported by theterminal device, may configure the terminal device. The configurationinformation may include: the number of the receive beams or the receivebeam groups; or the serial number of the composition manner of thereceive beams or the receive beam groups.

The terminal device, after the configuration information of the networkdevice is received and the configuration is activated, may performsignal measurement and report the measurement report according to theconfiguration information.

The measurement report reported by the terminal device may carry thereceiving capability of a receive beam or receive beam group presentlyadopted for signal quality feedback.

In 220, the terminal device feeds back the signal quality to the networkdevice according to the first feedback manner.

FIG. 5 is a schematic flowchart of a wireless communication method 300according to an embodiment of the disclosure. As illustrated in FIG. 5,the method 300 includes the following contents.

In 310, a network device generates first information, and the firstinformation is used to configure a feedback manner in which a terminaldevice feeds back signal quality of multiple transmit beams of thenetwork device to the network device; the first information is used toconfigure at least one of the followings for the terminal device: areceiving capability of receive beams or receive beam groups configuredfor signal quality feedback, the number of the receive beams or receivebeam groups configured for signal quality feedback, or a compositionmanner of the receive beams or receive beam groups configured for signalquality feedback, the composition manner being indexed to the number ofthe receive beam or receive beam groups configured for signal qualityfeedback.

In at least one embodiment, the receiving capability of the receivebeams or the receive beam groups includes a first receiving capabilityor a second receiving capability.

In the first receiving capability, the same receive beam or the samereceive beam group can simultaneously receive downlink signals sent bymultiple transmit beams.

In the second receiving capability, different receive beams or differentreceive beam groups can simultaneously receive downlink signals sent bydifferent transmit beams.

In at least one embodiment, before the network device generates thefirst information, the network device receives second information sentby the terminal device. The second information is configured to indicateat least one of: receiving capabilities of receive beams or receive beamgroups supported by the terminal device, the number of the receive beamsor the receive beam groups supported by the terminal device, compositionmanners of the receive beams or the receive beam groups supported by theterminal device, or the number of the composition manners of the receivebeams or the receive beam groups supported by the terminal device.

In an implementation, the second information at least indicates thereceiving capabilities of the receive beams or the receive beam groupssupported by the terminal device, and the terminal device supports atleast two receiving capabilities of the receive beams or the receivebeam groups.

The first information is configured to at least configure the followingfor the terminal device: the receiving capability of the receive beamsor receive beam groups configured for signal quality feedback.

In an implementation, the terminal device supports at least twocomposition manners of the receive beams or the receive beam groups, andthe second information indicates at least one of the followings: thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, or the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device.

The first information is configured to configure at least one of thefollowings for the terminal device: the composition manner for thereceive beams configured for signal quality feedback, the number of thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, or the number of the receive beams orreceive beam groups configured for quality feedback.

In an implementation, the second information indicates at least one of:the composition manners of the receive beams or the receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, or the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device.

A measurement report for feeding back the signal quality is furtherconfigured to indicate the receiving capabilities of the receive beamsor the receive beam groups supported by the terminal device.

In at least one embodiment, the network device receives a messagecarrying capability information of the terminal device from the terminaldevice. The capability information includes the second information.

In 320, the network device sends the first information to the terminaldevice.

In at least one embodiment of the disclosure, the network devicedetermines a first feedback manner for signal quality feedback of theterminal device. The first feedback manner is different from anotherfeedback manner supported by the terminal device in at least one of: thereceiving capability of the receive beams or receive beam groupsconfigured for signal quality feedback, or the number of the receivebeams or receive beam groups configured for signal quality feedback.

The network device determines a transmit beam for sending a downlinksignal to the terminal device according to the first feedback manner andthe fed-back measurement report for the signal quality.

The downlink signal is sent via the determined transmit beam.

In the embodiments of the disclosure, the terminal device may determinethe first feedback manner for feeding back the signal quality of themultiple transmit beams of the network device in multiple feedbackmanners, and feeds back the signal quality to the network deviceaccording to the first feedback manner. In such a manner, the terminaldevice may support the multiple feedback manners, and the terminaldevice may select a presently-used feedback manner in the multiplefeedback manners according to a requirement.

FIG. 6 is a schematic block diagram of a terminal device 400 accordingto an embodiment of the disclosure. As illustrated in FIG. 6, theterminal device 400 includes a processing unit 410 and a transceiverunit 420.

The processing unit 410 is configured to determine a first feedbackmanner for feeding back signal quality of multiple transmit beams of anetwork device. The first feedback manner is different from anotherfeedback manner supported by the terminal device in at least one of: areceiving capability of receive beams or receive beam groups configuredfor signal quality feedback, or the number of the receive beams orreceive beam groups configured for signal quality feedback.

The transceiver unit 420 is configured to feed back the signal qualityto the network device according to the first feedback manner.

In at least one embodiment, the receiving capability of the receivebeams or the receive beam groups includes at least one of a firstreceiving capability or a second receiving capability.

In the first receiving capability, the same receive beam or the samereceive beam group can simultaneously receive downlink signals sent bymultiple transmit beams.

In the second receiving capability, different receive beams or differentreceive beam groups can simultaneously receive downlink signals sent bydifferent transmit beams.

In at least one embodiment, the transceiver unit 420 is furtherconfigured to: receive first information sent by the network device. Thefirst information is used to configure at least one of the followingsfor the terminal device: the receiving capability of the receive beamsor receive beam groups configured for signal quality feedback, thenumber of the receive beams or receive beam groups configured for signalquality feedback, or a composition manner of the receive beams orreceive beam groups configured for signal quality feedback. Thecomposition manner is indexed to the number of the receive beam orreceive beam groups configured for signal quality feedback.

The processing unit 410 is further configured to: determine the firstfeedback manner according to the first information.

In at least one embodiment, the transceiver unit 420 is furtherconfigured to: send second information to the network device. The secondinformation is configured to indicate at least one of: receivingcapabilities of receive beams or receive beam groups supported by theterminal device, the number of the receive beams or the receive beamgroups supported by the terminal device, composition manners of thereceive beams or the receive beam groups supported by the terminaldevice, or the number of the composition manners of the receive beams orthe receive beam groups supported by the terminal device. Each of thecomposition manners is indexed to the number of the receive beams orreceive beam groups configured for signal quality feedback.

In at least one embodiment, when the terminal device supports at leasttwo receiving capabilities of the receive beams or the receive beamgroups, the second information at least indicates the receivingcapabilities of the receive beams or the receive beam groups supportedby the terminal device.

The transceiver unit 420 is further configured to: receive thirdinformation sent by the network device. The third information is used toat least configure the following for the terminal device: the receivingcapability of the receive beams or receive beam groups configured forsignal quality feedback.

The processing unit 410 is further configured to determine the firstfeedback manner according to the third information.

In at least one embodiment, when the terminal device supports at leasttwo composition manners of the receive beams or the receive beam groups,the second information at least indicates at least one of thefollowings: the composition manners of the receive beams or the receivebeam groups supported by the terminal device, the number of the receivebeams or the receive beam groups supported by the terminal device, orthe number of the composition manners of the receive beams or thereceive beam groups supported by the terminal device.

The transceiver unit 420 is further configured to receive fourthinformation sent by the network device. The fourth information is usedto configure at least one of the followings for the terminal device: thecomposition manner of the receive beams or receive beam groupsconfigured for signal quality feedback, the number of the compositionmanners of the receive beams or the receive beam groups supported by theterminal device, or the number of the receive beams or receive beamgroups configured for quality feedback.

The processing unit 410 is further configured to determine the firstfeedback manner according to the fourth information.

In at least one embodiment, when the terminal device supports onereceiving capability of the receive beams or the receive beam groups andthe terminal device supports one composition manner of the receive beamsor the receive beam groups, the processing unit 410 is furtherconfigured to determine the first feedback manner according to thesecond information.

In at least one embodiment, the second information indicates at leastone of: the composition manners of the receive beams or the receive beamgroups supported by the terminal device, the number of the receive beamsor the receive beam groups supported by the terminal device, or thenumber of the composition manners of the receive beams or the receivebeam groups supported by the terminal device.

A measurement report for feeding back the signal quality is furtherconfigured to indicate the receiving capabilities of the receive beamsor the receive beam groups supported by the terminal device.

In at least one embodiment, the transceiver unit 420 is furtherconfigured to send a message carrying capability information of theterminal device to the network device, and the capability informationincludes the second information.

It is to be understood that the terminal device 400 may correspond tothe terminal device in the method 200, may implement functionsimplemented by the terminal device in the method 200 and, which will notbe elaborated herein for simplicity.

FIG. 7 is a schematic block diagram of a network device 500 according toan embodiment of the disclosure. As illustrated in FIG. 7, the networkdevice 500 includes a processing unit 510 and a transceiver unit 520.

The processing unit 510 is further configured to generate firstinformation, and the first information is used to configure a feedbackmanner in which a terminal device feeds back signal quality of multipletransmit beams of the network device to the network device. The firstinformation is used to configure at least one of the followings for theterminal device: a receiving capability of receive beams or receive beamgroups configured for signal quality feedback, the number of the receivebeams or receive beam groups configured for signal quality feedback, ora composition manner of the receive beams or receive beam groupsconfigured for signal quality feedback. The composition manner isindexed to the number of the receive beam or receive beam groupsconfigured for signal quality feedback.

The transceiver unit 520 is further configured to send the firstinformation to the terminal device.

In at least one embodiment, the receiving capability of the receivebeams or the receive beam groups includes at least one of a firstreceiving capability or a second receiving capability.

In the first receiving capability, the same receive beam or the samereceive beam group can simultaneously receive downlink signals sent bymultiple transmit beams.

In the second receiving capability, different receive beams or differentreceive beam groups can simultaneously receive downlink signals sent bydifferent transmit beams.

In at least one embodiment, the transceiver unit 520 is furtherconfigured to receive second information sent by the terminal device.The second information is configured to indicate at least one of:receiving capabilities of receive beams or receive beam groups supportedby the terminal device, the number of the receive beams or the receivebeam groups supported by the terminal device, composition manners of thereceive beams or the receive beam groups supported by the terminaldevice, or the number of the composition manners of the receive beams orthe receive beam groups supported by the terminal device.

In at least one embodiment, the second information at least indicatesthe receiving capabilities of the receive beams or the receive beamgroups supported by the terminal device, and the terminal devicesupports at least two receiving capabilities of the receive beams or thereceive beam groups.

The first information is configured to at least configure the followingfor the terminal device: the receiving capability of the receive beamsor receive beam groups configured for signal quality feedback.

In at least one embodiment, the terminal device supports at least twocomposition manners of the receive beams or the receive beam groups, andthe second information indicates at least one of the followings: thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, or the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device.

The first information is used to configure at least one of thefollowings for the terminal device: the composition manner of thereceive beams configured for signal quality feedback, the number of thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, or the number of the receive beams orreceive beam groups configured for quality feedback.

In at least one embodiment, the second information indicates at leastone of: the composition manners of the receive beams or the receive beamgroups supported by the terminal device, the number of the receive beamsor the receive beam groups supported by the terminal device, or thenumber of the composition manners of the receive beams or the receivebeam groups supported by the terminal device.

A measurement report for feeding back the signal quality is furtherconfigured to indicate the receiving capabilities of the receive beamsor the receive beam groups supported by the terminal device.

In at least one embodiment, the transceiver unit 520 is furtherconfigured to receive a message carrying capability information of theterminal device from the terminal device. The capability informationincludes the second information.

In at least one embodiment, the processing unit 510 is furtherconfigured to determine a first feedback manner for signal qualityfeedback of the terminal device, and the first feedback manner isdifferent from another feedback manner supported by the terminal devicein at least one of: the receiving capability of the receive beams orreceive beam groups configured for signal quality feedback, the numberof the receive beams or receive beam groups configured for signalquality feedback; and determine a transmit beam for sending a downlinksignal to the terminal device according to the first feedback manner andthe fed-back measurement report for the signal quality.

The transceiver unit 520 is further configured to send the downlinksignal via the determined transmit beam.

It is to be understood that the network device 500 may correspond to thenetwork device in the method 300, may realize corresponding functionsrealized by the network device in the method 300, which will not beelaborated herein for simplicity.

FIG. 8 is a schematic structure diagram of a system chip 600 accordingto an embodiment of the disclosure. The system chip 600 in FIG. 8includes an input interface 601, an output interface 602, a processor603 and a memory 604, all of which may be connected through an internalcommunication connecting line. The processor 603 is configured toexecute a code in the memory 704.

In at least one embodiment, when the code is executed, the processor 603implements the operations executed by the terminal device in the method200 illustrated in FIG. 2. For simplicity, no more elaborations will bemade herein.

In at least one embodiment, when the code is executed, the processor 603implements the operations executed by the network device in the method300 illustrated in FIG. 3. For simplicity, no more elaborations will bemade herein.

FIG. 9 is a schematic block diagram of a communication device 700according to an embodiment of the disclosure. As illustrated in FIG. 9,the communication device 700 includes a processor 710 and a memory 720.The memory 720 may store a program code, and the processor 710 mayexecute the program code stored in the memory 720.

In at least one embodiment, as illustrated in FIG. 8, the communicationdevice 700 may include a transceiver 730. The processor 710 may controlthe transceiver 730 for external communication.

In at least one embodiment, the processor 710 may call the program codestored in the memory 720 to execute corresponding operations of theterminal device in the method 200 illustrated in FIG. 2. For similarity,no more elaborations will be made herein.

In at least one embodiment, the processor 710 may call the program codestored in the memory 720 to execute corresponding operations of thenetwork device in the method 300 illustrated in FIG. 2. For similarity,no more elaborations will be made herein.

Those of ordinary skill in the art may realize that the units andalgorithm steps of each example described in combination with theembodiments disclosed in the disclosure may be implemented by electronichardware or a combination of computer software and the electronichardware. Whether these functions are executed in a hardware or softwaremanner depends on specific applications and design constraints of thetechnical solutions. Professionals may realize the described functionsfor each specific application by use of different methods, but suchrealization shall fall within the scope of the disclosure.

Those skilled in the art may clearly learn about that specific workingprocesses of the system, device and unit described above may refer tothe corresponding processes in the method embodiment and will not beelaborated herein for convenient and brief description.

In some embodiments provided by the disclosure, it is to be understoodthat the disclosed system, device and method may be implemented inanother manner. For example, the device embodiment described above isonly schematic, and for example, division of the units is only logicfunction division, and other division manners may be adopted duringpractical implementation. For example, multiple units or components maybe combined or integrated into another system, or some characteristicsmay be neglected or not executed. In addition, coupling or directcoupling or communication connection between each displayed or discussedcomponent may be indirect coupling or communication connection,implemented through some interfaces, of the device or the units, and maybe electrical and mechanical or adopt other forms.

The units described as separate parts may or may not be physicallyseparated, and parts displayed as units may or may not be physicalunits, and namely may be located in the same place, or may also bedistributed to multiple network units. Part or all of the units may beselected to achieve the purpose of the solutions of the embodimentsaccording to a practical requirement.

In addition, each functional unit in each embodiment of the disclosuremay be integrated into a processing unit, each unit may also physicallyexist independently, and two or more than two units may also beintegrated into a unit.

When being realized in form of software functional unit and sold or usedas an independent product, the function may also be stored in acomputer-readable storage medium. Based on such an understanding, thetechnical solutions of the disclosure substantially or parts makingcontributions to the conventional art or part of the technical solutionsmay be embodied in form of software product, and the computer softwareproduct is stored in a storage medium, including a plurality ofinstructions configured to enable a computer device (which may be apersonal computer, a server, a network device or the like) to executeall or part of the steps of the method in each embodiment of thedisclosure. The abovementioned storage medium includes: various mediacapable of storing program codes such as a U disk, a mobile hard disk, aRead-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk oran optical disk.

The above is only the specific implementation mode of the disclosure andnot intended to limit the scope of protection of the disclosure. Anyvariations or replacements apparent to those skilled in the art withinthe technical scope disclosed by the disclosure shall fall within thescope of protection of the disclosure. Therefore, the scope ofprotection of the disclosure shall be subject to the scope of protectionof the claims.

1. A wireless communication method, comprising: determining, by aterminal device, a first feedback manner for feeding back signal qualityof multiple transmit beams of a network device, the first feedbackmanner being different from another feedback manner supported by theterminal device in at least one of: a receiving capability of receivebeams or receive beam groups configured for signal quality feedback, ora number of the receive beams or receive beam groups configured for thesignal quality feedback; and feeding back, by the terminal device, thesignal quality to the network device according to the first feedbackmanner.
 2. The method of claim 1, wherein the receiving capability ofthe receive beams or the receive beam groups comprises at least one of afirst receiving capability or a second receiving capacity; in the firstreceiving capability, the same receive beam or the same receive beamgroup is capable of simultaneously receiving downlink signals sent bymultiple transmit beams; and in the second receiving capability,different receive beams or different receive beam are capable ofsimultaneously receiving downlink signals sent by different transmitbeams.
 3. The method of claim 1, further comprising: receiving, by theterminal device, first information sent by the network device, whereinthe first information is to configure at least one of the followings forthe terminal device: the receiving capability of the receive beams orreceive beam groups configured for the signal quality feedback, thenumber of the receive beams or receive beam groups configured for thesignal quality feedback, or a composition manner of the receive beams orreceive beam groups configured for the signal quality feedback, thecomposition manner being indexed to the number of the receive beams orreceive beam groups configured for the signal quality feedback, whereindetermining, by the terminal device, the first feedback manner forfeeding back the signal quality of the multiple transmit beams of thenetwork device comprises: determining, by the terminal device, the firstfeedback manner according to the first information.
 4. 1 The method ofclaim 1, wherein before determining, by the terminal device, the firstfeedback manner for feeding back the signal quality of the multipletransmit beams of the network device, further comprising: sending, bythe terminal device, second information to the network device, thesecond information being configured to indicate at least one of:receiving capabilities of receive beams or receive beam groups supportedby the terminal device, a number of the receive beams or the receivebeam groups supported by the terminal device, composition manners of thereceive beams or the receive beam groups supported by the terminaldevice, or a number of the composition manners of the receive beams orthe receive beam groups supported by the terminal device, eachcomposition manner being indexed to the number of the receive beams orreceive beam groups configured for the signal quality feedback.
 5. Themethod of claim 4, wherein, when the terminal device supports at leasttwo receiving capabilities of the receive beams or the receive beamgroups, the second information at least indicates the receivingcapabilities of the receive beams or the receive beam groups supportedby the terminal device; the method further comprises: receiving, by theterminal device, third information sent by the network device, whereinthe third information is to at least configure the following for theterminal device: the receiving capability of the receive beams orreceive beam groups configured for the signal quality feedback; anddetermining, by the terminal device, the first feedback manner forfeeding back the signal quality of the multiple transmit beams of thenetwork device comprises: determining the first feedback manneraccording to the third information.
 6. The method of claim 4, wherein,when the terminal device supports at least two composition manners ofthe receive beams or the receive beam groups, the second informationindicates at least one of the followings: the composition manners of thereceive beams or the receive beam groups supported by the terminaldevice, the number of the receive beams or the receive beam groupssupported by the terminal device, or the number of the compositionmanners of the receive beams or the receive beam groups supported by theterminal device; the method further comprises: receiving, by theterminal device, fourth information sent by the network device, whereinthe fourth information is to configure at least one of the followingsfor the terminal device: the composition manner of the receive beams orreceive beam groups configured for the signal quality feedback, thenumber of the composition manners of the receive beams or the receivebeam groups supported by the terminal device, or the number of thereceive beams or receive beam groups configured for the signal qualityfeedback; and determining, by the terminal device, the first feedbackmanner for feeding back the signal quality of the multiple transmitbeams of the network device comprises: determining the first feedbackmanner according to the fourth information.
 7. The method of claim 4,wherein, when the terminal device supports one receiving capability ofthe receive beams or the receive beam groups and the terminal devicesupports one composition manner of the receive beams or the receive beamgroups, determining, by the terminal device, the first feedback mannerfor feeding back the signal quality of the multiple transmit beams ofthe network device comprises: determining, by the terminal device, thefirst feedback manner according to the second information.
 8. (canceled)9. The method of claim 4, wherein sending, by the terminal device, thesecond information to the network device comprises: sending, by theterminal device, a message carrying capability information of theterminal device to the network device, the capability informationcomprising the second information. 10-17. (canceled)
 18. A terminaldevice, comprising a processor and a transceiver, wherein processor isconfigured to determine a first feedback manner for feeding back signalquality of multiple transmit beams of a network device, the firstfeedback manner being different from another feedback manner supportedby the terminal device in at least one of: a receiving capability ofreceive beams or receive beam groups configured for signal qualityfeedback, or a number of the receive beams or receive beam groupsconfigured for the signal quality feedback; and the transceiver isconfigured to feed back the signal quality to the network deviceaccording to the first feedback manner.
 19. The terminal device of claim18, wherein the receiving capability of the receive beams or the receivebeam groups comprises at least one of a first receiving capability or asecond receiving capacity; in the first receiving capability, the samereceive beam or the same receive beam group is capable of simultaneouslyreceiving downlink signals sent by multiple transmit beams; and in thesecond receiving capability, different receive beams or differentreceive beam groups are capable of simultaneously receiving downlinksignals sent by different transmit beams.
 20. The terminal device ofclaim 18, wherein the transceiver is further configured to: receivefirst information sent by the network device, wherein the firstinformation is to configure at least one of the followings for theterminal device: the receiving capability of the receive beams orreceive beam groups configured for the signal quality feedback, thenumber of the receive beams or receive beam groups configured for thesignal quality feedback, or a composition manner of the receive beams orreceive beam groups configured for the signal quality feedback, thecomposition manner being indexed to the number of the receive beam orreceive beam groups configured for the signal quality feedback; and theprocessor is further configured to: determine the first feedback manneraccording to the first information.
 21. The terminal device of claim 18,wherein the transceiver is further configured to: send secondinformation to the network device, the second information beingconfigured to indicate at least one of: receiving capabilities ofreceive beams or receive beam groups supported by the terminal device, anumber of the receive beams or the receive beam groups supported by theterminal device, composition manners of the receive beams or the receivebeam groups supported by the terminal device, or a number of thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, each composition manners being indexedto the number of the receive beams or receive beam groups configured forthe signal quality feedback.
 22. The terminal device of claim 21,wherein, when the terminal device supports at least two receivingcapabilities of the receive beams or the receive beam groups, the secondinformation at least indicates the receiving capabilities of the receivebeams or the receive beam groups supported by the terminal device; thetransceiver is further configured to: receive third information sent bythe network device, wherein the third information is to at leastconfigure the following for the terminal device: the receivingcapability of the receive beams or receive beam groups configured forthe signal quality feedback; and the processor is further configured to:determine the first feedback manner according to the third information.23. The terminal device of claim 21, wherein, when the terminal devicesupports at least two composition manners of the receive beams or thereceive beam groups, the second information indicates at least one ofthe followings: the composition manners of the receive beams or thereceive beam groups supported by the terminal device, the number of thereceive beams or the receive beam groups supported by the terminaldevice, or the number of the composition manners of the receive beams orthe receive beam groups supported by the terminal device; thetransceiver is further configured to: receive fourth information sent bythe network device, wherein the fourth information is to configure atleast one of the followings for the terminal device: the compositionmanner of the receive beams or receive beam groups configured for thesignal quality feedback, the number of the composition manners of thereceive beams or the receive beam groups supported by the terminaldevice, or the number of the receive beams or receive beam groupsconfigured for the signal quality feedback; and the processor is furtherconfigured to: determine the first feedback manner according to thefourth information.
 24. The terminal device of claim 21, wherein, whenthe terminal device supports one receiving capability of the receivebeams or the receive beam groups and the terminal device supports onecomposition manner of the receive beams or the receive beam groups, theprocessor is further configured to: determine the first feedback manneraccording to the second information.
 25. The terminal device of claim21, wherein the second information indicates at least one of: thecomposition manners of the receive beams or the receive beam groupssupported by the terminal device, the number of the receive beams or thereceive beam groups supported by the terminal device, or the number ofthe composition manners of the receive beams or the receive beam groupssupported by the terminal device;
 26. The terminal device of claim 21,wherein the transceiver is further configured to: send a messagecarrying capability information of the terminal device to the networkdevice, the capability information comprising the second information.27. A network device, comprising a processor and a transceiver, whereinthe processor is further configured to generate first information,wherein the first information is to configure a feedback manner in whicha terminal device feeds back signal quality of multiple transmit beamsof the network device to the network device and the first information isto configure at least one of the followings for the terminal device: areceiving capability of receive beams or receive beam groups configuredfor signal quality feedback, a number of the receive beams or receivebeam groups configured for the signal quality feedback, or a compositionmanner of the receive beams or receive beam groups configured for thesignal quality feedback, the composition manner being indexed to thenumber of the receive beam or receive beam groups configured for thesignal quality feedback; and the transceiver is further configured tosend the first information to the terminal device. 28-33. (canceled) 34.The network device of claim 27, wherein the processor is furtherconfigured to determine a first feedback manner for the signal qualityfeedback of the terminal device, the first feedback manner beingdifferent from another feedback manner supported by the terminal devicein at least one of: the receiving capability of the receive beams orreceive beam groups configured for the signal quality feedback, or thenumber of the receive beams or receive beam groups configured for thesignal quality feedback, and determine a transmit beam for sending adownlink signal to the terminal device according to the first feedbackmanner and a measurement report for the signal quality fed back by theterminal device; and the transceiver is further configured to send thedownlink signal via the determined transmit beam.
 35. The terminaldevice of claim 25, wherein the transceiver is further configured to:sending, by the terminal device, a measurement report for feeding backthe signal quality to the network device, wherein the measurement reportis configured to indicate the receiving capabilities of the receivebeams or the receive beam groups supported by the terminal device.